3.0GHz-10.4GT-UPI
3.0GHz-10.4GT-UPI Xeon 18 Core
Overview
The 3.0GHz-10.4GT-UPI Xeon 18 Core processors are powerful, high-performance units designed to handle the most demanding server and workstation applications. These processors offer an impressive 18 cores, allowing for exceptional multi-threading capabilities. With a base clock speed of 3.0GHz and an ultra-fast 10.4GT/s UPI (Ultra Path Interconnect) speed, these Xeon processors deliver outstanding performance for compute-intensive tasks.
Key Features
- 18 Cores: The high number of cores makes these processors ideal for multi-threaded applications, server environments, and workloads such as virtualization, data analytics, and scientific simulations.
- 3.0GHz Base Clock Speed: The 3.0GHz clock speed ensures solid performance in both single-threaded and multi-threaded applications, providing a balance between speed and energy efficiency.
- 10.4GT/s UPI: Ultra Path Interconnect (UPI) offers high bandwidth for communication between processors, enhancing scalability and improving data throughput between cores and the memory controller.
- Enhanced Security Features: These processors come with built-in security technologies like Intel® AES-NI, Intel® SGX, and Intel® TXT to protect sensitive data and workloads.
- Hyper-Threading Technology: With Intel® Hyper-Threading Technology (HTT), each physical core can process two threads simultaneously, increasing the overall efficiency of workloads.
3.0GHz-10.4GT-UPI Xeon 18 Core Processors
Data Centers and Server Farms
The 3.0GHz-10.4GT-UPI Xeon 18 Core processors are ideal for data center operations, where high-performance computing is required for hosting websites, applications, and large-scale cloud computing services. These processors can manage large amounts of data and multiple tasks concurrently without compromising on performance, making them perfect for enterprise-level applications.
Scientific and Engineering Applications
For research labs and engineering firms, the Xeon 18 core processors enable the execution of complex simulations, calculations, and data processing tasks. With the combined power of multiple cores and high-speed interconnects, they accelerate processing in computational fluid dynamics (CFD), finite element analysis (FEA), and other data-intensive scientific workflows.
Virtualization and Cloud Computing
The powerful multi-core capabilities of the Xeon 18 Core processors provide exceptional support for virtualization platforms such as VMware, Hyper-V, and KVM. With its hyper-threading feature, these processors allow for higher VM density and more efficient resource allocation, making them suitable for cloud computing environments and enterprise virtualization solutions.
Performance Characteristics
Base Clock Speed and Turbo Boost
The 3.0GHz base clock speed ensures high-speed performance across a variety of workloads. Additionally, Intel® Turbo Boost Technology dynamically increases the processor’s clock speed during demanding tasks, allowing for faster performance during short bursts of activity without compromising power efficiency.
Energy Efficiency
Despite the high-performance capabilities, the Xeon 18 Core processors are built with energy efficiency in mind. They are designed to consume less power while delivering peak performance, making them suitable for both performance-centric and environmentally-conscious applications.
Advanced Cooling Solutions
To ensure that these processors operate at optimal temperatures, even under heavy workloads, advanced cooling solutions such as liquid cooling systems and high-performance heat sinks are recommended. These cooling solutions help maintain system stability while preventing thermal throttling during extended periods of intense processing.
Comparison with Other Xeon Processors
Xeon 18 Core vs Xeon 12 Core
When comparing the 18-core Xeon processor with the 12-core variants, the main difference lies in the increased number of cores, which directly impacts performance in multi-threaded applications. The 18-core processor can handle more simultaneous threads, making it better suited for virtualization and large-scale workloads. On the other hand, Xeon 12-core processors offer better energy efficiency for less demanding workloads.
Xeon 18 Core vs Xeon 20 Core
In comparison to the Xeon 20-core processors, the 18-core variants offer a slightly lower performance ceiling, but they tend to be more cost-effective while still providing ample power for most enterprise applications. The 20-core processors are better suited for extreme workloads, such as large-scale rendering and massive data processing, while the 18-core Xeon is a balanced choice for general-purpose server use.
Hardware Compatibility
Motherboards and Chipsets
To take full advantage of the 3.0GHz-10.4GT-UPI Xeon 18 Core processor, it’s crucial to select a compatible motherboard and chipset. These processors typically require motherboards that support Intel® C621 or other server-class chipsets, which are specifically designed to handle high-core-count CPUs. Ensure the motherboard offers appropriate socket types, such as the LGA 3647, and has sufficient PCIe lanes for expansion cards and storage devices.
Memory and RAM Compatibility
These processors support large amounts of high-speed memory, typically DDR4 memory, with speeds up to 2933MHz. It's important to choose the right memory configuration for your workloads, as Xeon processors can handle quad-channel memory for greater bandwidth. For intensive applications, opting for a large amount of RAM (32GB or more) will enhance system performance.
Security and Reliability Features
Intel® Advanced Encryption Standard New Instructions (AES-NI)
Intel® AES-NI technology accelerates encryption and decryption operations, making it ideal for workloads involving sensitive data. This feature is especially important for businesses that deal with financial, healthcare, or governmental data, ensuring that all information is securely processed without compromising performance.
Intel® Software Guard Extensions (SGX)
Intel® SGX provides hardware-based memory encryption, creating isolated regions of code and data that are protected from unauthorized access. This feature adds an extra layer of security to applications that require strong confidentiality, making these processors well-suited for secure cloud computing and multi-tenant environments.
Reliability, Availability, and Serviceability (RAS)
The Xeon 18 Core processors come with a variety of RAS features, such as memory protection, error detection, and recovery mechanisms, to ensure that the system remains operational even in the event of hardware failures. These features are vital in mission-critical applications where downtime must be minimized.